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Stockroom employees prepare chemicals for an academic lab.
Stockroom employees prepare chemicals for an academic lab.
An REU participant works with a Chemistry professor.
An REU participant works with a Chemistry professor.
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A teaching assistant helps a student in the organic chemistry lab.
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One of the very first chemistry labs at Kent State University.
One of the very first chemistry labs at Kent State University.
Williams Hall, home of the Department of Chemistry and Biochemistry
Williams Hall, home of the Department of Chemistry and Biochemistry
An undergraduate student paints a structure on the wall of a research lab.
An undergraduate student paints a structure on the wall of a research lab.

Department of Chemistry & Biochemistry

Welcome to the Department of Chemistry and Biochemistry at Kent State University.  We invite you to browse these pages that describe our instructional and research community.  Here you will find award-winning teachers, internationally recognized scholars, excellent research facilities, and active researchers creating new materials and new knowledge.  Read about our course and degree offerings, and explore our photo and video galleries.

Our graduates can be found in local industry as well as Fortune 500 firms across the United States.  Many of our undergraduate students pursue graduate education in chemistry or biochemistry; others complete professional training in medicine, dentistry, or pharmacy.  Our Ph.D. alumni are researching and teaching at prestigious companies, colleges, and universities around the world.  Have you been part of the Kent State Chemistry and Biochemistry community?  If you're an alumnus of our Department, please take a moment to let us know what you are doing now.

Our alumni do great things every day - we invite YOU to become part of our success story!

 

Research Highlight

Importance of small micropores in CO2 capture by phenolic resin-based activated carbon spheres

Jaroniec research highlight

Nilantha Wickramaratne and Mietek Jaroniec*

J. Mater. Chem. A, 1 2013, 112-116.
ACS Appl. Mater. Interfaces 5 2013, 1849-1855.

Abstract:
CO2 emission associated with anthropogenic activities plays a big role in global warming. Therefore, there is great interest in the development of new materials for CO2 capture. Our recent studies showed that phenolic resin spheres obtained by the Stöber-type method can be converted to carbon spheres (CS) with a large fraction of fine micropores (<0.8 nm) by suitable carbonization and activation with CO2 or KOH. The resulting activated CS exhibited large surface areas (2400-3000 m2/g) and unprecedented CO2 adsorption capacities (~8-9 and 4.6 mmol/g at 0 and 23oC, respectively) at 1 bar pressure.

Research Highlight Archive
Spring 2013 Colloquium

Click here to view the Spring 2013 colloquium schedule

Spring 2013 Colloquium

Department of Chemistry and Biochemistry · Williams Hall · (330) 672-2032

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